Patent application title: Inflatable electric vehicle

Abstract:

An electric vehicle for personal transportation has an inflatable body
that can be deflated and the electric vehicle collapsed to a storage or
transport configuration that is compact and light-weight. At least one
front wheel and one rear wheel are attached to the inflatable body. An
electric motor is attached to a wheel and preferably there is an electric
motor for each rear wheel to power and brake the vehicle. A battery pack
provides vehicle propulsion and provides structural support. An
electronic control unit controls the electric motor and also provides
structural support. A steering assembly includes the front wheel that is
structurally connected to a rear wheel by the inflatable body, a steering
column, handle bars, and braking and speed controls operable by a person
sitting on the inflatable body.

Claims:

1. An electric vehicle for personal transportation comprising:(a) an
inflatable body;(b) two rear wheels attached to the inflatable body;(c)
an electric motor attached to a rear wheel;(d) a battery pack that
structurally joins the two rear wheels;(e) an electronic control unit
powered by the battery pack that structurally joins the two rear wheels
and controls the electric motor; and,(f) a steering assembly comprising a
front wheel structurally connected to the rear wheels by the inflatable
body, steering column, handle bars, and braking and speed controls
operable by a person sitting on the inflatable body, wherein such speed
controls are connected to the electric motor through the electronic
control unit.

2. The electric vehicle of claim 1 wherein the steering column rises from
the front wheel in a columnar passage through the inflatable body.

3. The electric vehicle of claim 1 wherein the inflatable body is made of
material selected from a group consisting of carbon fiber sheet, KEVLAR,
and soft glass fiber sheet.

4. The electric vehicle of claim 1 further comprising a second electric
motor attached to the other rear wheel.

5. The electric vehicle of claim 1 wherein the electric motor is operable
to power a rear wheel of the vehicle and to provide braking force.

6. The electric vehicle of claim 1 wherein the inflatable body comprises a
front, a rear, two sides and two support plates each support plate
attached approximately at the rear and on a side of inflatable body and
wherein each support plate serve as a means to attach a rear wheel to the
inflatable body.

7. The electric vehicle of claim 6 wherein the inflatable body further
comprises a foot rest on each side; and, a seating area.

8. The electric vehicle of claim 6 wherein the battery pack and electronic
control unit join the two rear wheels by removably attaching to, and
connecting between, the support plates.

9. The electric vehicle of claim 8 further comprising a valve for
inflating the inflatable body and deflating the inflatable body to a
collapsed state wherein when the inflatable body is deflated, the wheels
are approximately aligned at the front after the battery pack and
electronic control unit are removed from their attachment to and
connection between the support plates and the electric vehicle can fit
into a rectangular box defined approximately by the width and depth of
the handle bars and the height of the steering assembly.

10. The electric vehicle of claim 9 further comprising a strap attachable
to the battery pack; a strap attachable to the electronic control unit;
and an air pump to inflate or deflate the inflatable body.

11. An electric vehicle for personal transportation comprising:(a) an
inflatable body comprising a front, a rear, two sides, a seating area;(b)
a plurality of wheels connected to the inflatable body wherein a wheel is
connected to the front and a wheel is connected to the rear of the
inflatable body and wherein the inflatable body forms the only structural
connection between the front wheel and the rear wheel of the vehicle;(c)
an electric motor attached to a wheel;(d) a battery pack;(e) an
electronic control unit powered by the battery pack that provides added
structural support and controls the electric motor; and,(f) a steering
assembly comprising a front wheel, steering column connected to the front
wheel through a columnar passage through the inflatable body, a steering
mechanism, and braking and speed controls operable by a person sitting on
the inflatable body, wherein such speed controls are connected to the
electric motor through the electronic control unit.

12. The electric vehicle of claim 11 wherein the plurality of wheels
comprises two wheels connected to the front and two rear wheels connected
to the rear.

Description:

FIELD OF INVENTION

[0001]In the field of motor vehicles, an electric vehicle for personal
transportation preferably has three wheels and an inflatable body that
may be deflated and the vehicle collapsed to a storage or transport
configuration that is compact and light-weight.

DESCRIPTION OF PRIOR ART

[0002]One aspect of the prior art in this category relates to collapsible
frame vehicles. The present invention is distinct from this category in
that it eliminates the metal or rigid structural frame between the front
and rear and accompanying pivot points enabling the collapsible concept.

[0003]An example is United States Patent Application 20070051548A1 which
discloses a two-wheeled collapsible powered vehicle with a rear frame
assembly and a front frame assembly that are pivotally attached to one
another. The frame can be pivoted from a normal fully-extended operating
position to a folded position.

[0004]A second example involving a four-wheeled vehicle is U.S. Pat. No.
7,278,507 for a collapsible personal transportation vehicle designed to
be compacted and stowed, for example, in a mobile home. Here again
various rigid structural pivoting members are used as part of the
collapsible assembly.

[0005]Another aspect of the prior art involves the use of an inflatable
body for a three-wheeled vehicle, although not intended for an
operational vehicle for personal transportation.

[0006]An example of this prior art is U.S. Pat. No. 4,126,312 for a mobile
weapons surface target. Use of a battery-driven electric motor is
disclosed with a rigid structural chassis linking the front and rear of
the vehicle. The pliable cover preferably is plastic and inflatable in
individual sections, which may be filled with "smoke" for recognition of
a hit. The vehicle is radio-controlled. The present invention is
physically different in numerous distinctive and innovative aspects, for
example, it eliminates a rigid structural frame between the front and
rear, the vehicle is operable as a personal vehicle by a person sitting
on the vehicle and the battery pack and electronic control unit
structurally join the rear wheels.

[0007]Accordingly, the present invention will serve to improve the state
of the art by providing an electric vehicle for personal transportation.
The electric vehicle has an inflatable body that eliminates a rigid
structural frame and pivot points between the front and rear of the
vehicle. The inflatable body may be deflated and the vehicle collapsed to
a storage or transport configuration that is compact and light-weight.

BRIEF SUMMARY OF THE INVENTION

[0008]An electric vehicle for personal transportation with an inflatable
body may be deflated and the electric vehicle collapsed to a storage or
transport configuration that is compact and light-weight. The electric
vehicle is preferably a three-wheeled vehicle, but may have any number of
wheels. The inflatable body is preferably made of carbon fiber sheet,
KEVLAR, or soft glass fiber sheet and has a foot rest on each side and a
seating area. For a three-wheeled vehicle, two rear wheels are attached
to the inflatable body preferably by attachment to two support plates
located near the rear and on each side of inflatable body. An electric
motor is attached to a rear wheel and preferably there is an electric
motor for each rear wheel. The electric motor preferably provides braking
force when needed and may also regenerate electricity from braking. A
battery pack provides vehicle propulsion and provides structural support.
An electronic control unit is powered by the battery pack, controls the
electric motor and also provides structural support. A steering assembly
includes a front wheel structurally connected to a rear wheel by the
inflatable body, a steering column, handle bars, and braking and speed
controls operably connected to the electric motors through the electronic
control unit. The steering column preferably rises from the front wheel
through a columnar passage through the inflatable body. A valve is used
for deflating the inflatable body to a collapsed state wherein the wheels
are approximately aligned at the front after the battery pack and
electronic control unit are removed from their attachment to and
connection between the support plates. In the deflated configuration, the
collapsed three-wheeled vehicle can fit into a rectangular box defined
approximately by the width and depth of the handle bars and the height of
the steering assembly.

BRIEF DESCRIPTION OF THE DRAWINGS

[0009]The drawings represent preferred embodiments of the electric vehicle
in accordance with the invention. The reference numbers in the drawings
are used consistently throughout. New reference numbers in FIG. 2 are
given the 200 series, new reference numbers and in FIG. 3 are given 300
series numbers, new reference numbers in FIG. 4 are given 400 series
numbers, and new reference numbers in FIG. 5 are given 500 series
numbers.

[0010]FIG. 1 is a perspective of a preferred embodiment of the electric
vehicle.

[0011]FIG. 2 is a side view of an inflatable body with a support plate,
electric motor, battery pack and electronic control unit.

[0012]FIG. 3 is a top view of the inflatable body with the battery pack at
the rear of the inflatable body.

[0013]FIG. 4 is a rear view of the inflatable body with an electronic
control unit beneath the inflatable body.

[0014]FIG. 5 is a perspective of an electric vehicle with the inflatable
body in a deflated configuration.

[0015]FIG. 6 is a perspective of a four-wheeled embodiment of the
invention.

[0016]FIG. 7 is a perspective of a two-wheeled embodiment of the
invention.

[0017]FIG. 8 is a perspective of an inflatable body for the two wheeled
embodiment.

DETAILED DESCRIPTION

[0018]In the following description, reference is made to the accompanying
drawings, which form a part hereof and which illustrate several
embodiments of the present invention. The drawings and the preferred
embodiments of the invention are presented with the understanding that
the present invention is susceptible of embodiments in many different
forms and, therefore, other embodiments may be utilized and structural
and operational changes may be made without departing from the scope of
the present invention.

[0019]FIG. 1 shows a perspective of a preferred embodiment of the electric
vehicle for personal transportation including but not limited to six
elements. A first element is an inflatable body (110). Preferably, the
inflatable body is made of durable air-tight material commonly available,
examples of which are carbon fiber sheet, KEVLAR, and soft glass fiber
sheet.

[0020]FIG. 2 shows a left-side elevation view of this inflatable body
(110), which includes a front (214), a rear (215), two sides, namely a
left side (117) as shown in FIG. 1 and a right side (116) as shown in
FIG. 1. Optionally, the inflatable body (110) has a foot rest on each
side, namely, a left-side foot rest (111) as shown in FIG. 1 and a right
side foot rest (318) as shown in FIG. 3 and, a seating area (113).
Preferably, the inflatable body (110) has a columnar passage (112) at its
front (214) to encircle a steering column (150).

[0021]FIG. 3 shows a top view of this inflatable body (110), which has two
support plates (210) and (310), each attached on a side of the inflatable
body approximately at the rear (215). The support plates are preferably
metal but may be plastic, carbon fiber, KEVLAR or any other structural
material capable of supporting the loads involved.

[0022]A second element of the preferred embodiment is two rear wheels (one
is shown in FIG. 1 at (140) and the other on the opposite side of the
inflatable body (110) is shown in FIG. 5 at (540). Both rear wheels are
attached to the inflatable body (110).

[0023]A third element of the preferred embodiment is an electric motor
(240) attached to a rear wheel (140). This embodiment also has a second
electric motor (340) attached to the other rear wheel (540), although
this second motor (340) is optional. Each electric motor (240) or (340)
is operable to power a rear wheel of the vehicle and provide braking
force. The braking force is preferably provided by regenerative braking
through the motor, which is well known in the art and which generates
electricity from braking that is stored in the battery pack. The electric
motor (240), as used herein, may include gearing commonly found in such
applications.

[0024]Each support plate (210) or (310) serves as a preferred means to
attach an electric motor (240) and (340) and a rear wheel (140) and (540)
to the inflatable body (110).

[0025]A fourth element is a battery pack (220) that structurally joins the
two rear wheels (140) and (540). Preferably, the battery pack (220)
structurally joins the two rear wheels (140) and (540) by removably
attaching to, and connecting between, the support plates (210) and (310).
As shown in FIG. 3, a removable attachment comprising a nub (321) at each
lateral end of the battery pack (220) and corresponding mating slot (322)
on the top of the two support plates (210) and (310) provide a simple
drop in attachment that structurally joins the two rear wheels (140) and
(540) via the two metal plates (210) and (310) at the back end of the
inflatable body (110).

[0026]A fifth element is an electronic control unit (230) powered by the
battery pack (220) that structurally joins the two rear wheels (140) and
(540) and controls the electric motor (240). When there is a second
electric motor (340), or more than one motor, the electronic control unit
(230) controls these motors. As shown in FIG. 4, a removable attachment
comprising a nub (431) at each lateral end of the electronic control unit
(230) and corresponding mating slot (432) on the bottom end of the two
support plates (210) and (310) provide a simple slide in attachment that
structurally joins the two rear wheels (140) and (540) via the two metal
plates (210) and (310) underneath the inflatable body (110).

[0027]The joining of the two metal plates (210) and (310) by the battery
pack (220) and the electronic control unit (230) structurally joins the
two rear wheels (140) and (540) via the two metal plates (210) and (310)
in a sturdy L-shaped configuration.

[0028]A sixth element is a steering assembly comprising a front wheel
(130) that is structurally connected to the rear wheels (140) and (540)
by the inflatable body (110), steering column (150), handle bars (160),
braking controls (170) and speed controls (180) operable by a person
sitting on the inflatable body (110) and operably connected to the
electric motor (240) or electric motors (240 and 340) through the
electronic control unit (230). The steering column (150) preferably rises
from the front wheel (130) in the columnar passage (112) through the
inflatable body (110). Preferably, the speed and braking controls
parallel those commonly found on a motorcycle, such as for example,
throttling by twisting a hand grip, and braking by pulling a hand lever.

[0029]A preferred embodiment of the electric vehicle includes a valve
(190) and an air pump (191) for inflating the inflatable body (110) and
for deflating the inflatable body (110) to a collapsed state as shown in
FIG. 5. The air pump (191) is preferably powered by the battery pack
(220) and may either be built-in to the inflatable body (110) or be an
external attachment to the electric vehicle.

[0030]In the collapsed state, the front wheel (130) and the two rear
wheels (140) and (540) are approximately aligned at the front (214) after
the battery pack (220) and electronic control unit (230) are removed from
their attachment to and connection between the support plates (210) and
(310). In the collapsed state shown in FIG. 5, it can be seen that the
electric vehicle can fit into a rectangular box defined approximately by
the width and depth of the handle bars (160) and the height of the
steering assembly.

[0031]Optionally, an embodiment of the electric vehicle includes a strap
(520) attachable to the battery pack (220); and, a strap (510) attachable
to the electronic control unit (230).

[0032]In other embodiments with differing numbers of wheels, the
principles, or basic elements, of the invention remain the same. A first
principle is that the electric vehicle is for personal transportation.

[0033]A second principle is that the electric vehicle has an inflatable
body comprising a front, a rear, two sides, a seating area.

[0034]A third principle is that there are at least two wheels connected to
the inflatable body wherein at least one wheel is connected to the front
and at least one wheel is connected to the rear of the inflatable body.
In all cases, the inflatable body forms the only structural support or
connection between any front wheel and any rear wheel of the vehicle.

[0035]A fourth principle is that the electric vehicle has an electric
motor attached to a wheel. The motor may be connected to any wheel, or
there may be a motor connected to each wheel.

[0036]A fifth principle is that the electric vehicle has a battery pack to
power the vehicle.

[0037]A sixth principle is that the electric vehicle has an electronic
control unit powered by the battery pack that provides added structural
support to the vehicle and controls the electric motor.

[0038]And finally, a seventh principle is that the electric vehicle has a
steering assembly comprising a front wheel, steering column connected to
the front wheel through a columnar passage through the inflatable body, a
steering mechanism, and braking and speed controls operable by a person
sitting on the inflatable body, wherein such speed controls are connected
to the electric motor through the electronic control unit. The steering
column connection to the front wheel may be direct or indirect, that is
for example, it may include a traditional rack and pinion connection to
two wheels or any other suitable steering connection. The braking and
speed controls may be hand operated on handle bars or a circular steering
wheel may be used and other hand or foot operable controls may be used.
The person may be sitting on the inflatable body out in the open or the
inflatable body may have an enclosure over the person.

[0039]FIG. 6 is a perspective of a four-wheeled embodiment of the
invention incorporating the above principles. In this embodiment, two
wheels are connected to the front, namely a right-side front wheel (631 )
and a left-side front wheel (630); and two wheels are connected to the
rear, namely a right-side rear wheel (641) shown in dotted lines and a
left-side rear wheel (640). This embodiment includes a rack and pinion
steering mechanism (610) that is well known in the prior art.

[0040]FIG. 7 is a perspective of a two-wheeled embodiment of the invention
incorporating the above principles. The electronic control unit (730) and
the battery pact (720) are mounted on the rear of inflatable body. FIG. 8
shows an inflatable body for this embodiment where a U-shaped bracket
(810) at the end of a wheel well is used as the means for attaching the
battery pack (720) and electronic control unit (730).

[0041]The above-described embodiments including the drawings are examples
of the invention and merely provide illustrations of the invention. Other
embodiments will be obvious to those skilled in the art. Thus, the scope
of the invention is determined by the appended claims and their legal
equivalents rather than by the examples given.